Abstract

The growth-stimulatory and invasion-promoting effects of basic fibroblast growth factor (bFGF) were examined in 2 series of related human colon carcinoma cell lines (HCT116A, HCT116B and 20-10-1 as well as and LS180, LS174T and ARK1A) that exhibit different invasive potentials. The invasive cell lines 20-10-1 and ARK1A grew more rapidly than their non-invasive counterparts; exogenously added bFGF stimulated the proliferation of all the cells. When extracts of the cells were fractionated on columns of heparin-Sepharose, bFGF-like activity was found in extracts from each cell line. The amount of bFGF-like growth-stimulatory activity was greater in the more invasive cells: the invasive cells 20-10-1 contained 35-fold more activity than the non-invasive HCT116A cells, and the ARK1A cells contained 15-fold more activity than LS180 cells. Relatively small amounts of bFGF-like activity were recovered from medium conditioned by the invasive cells. The bFGF-like growth-stimulatory activity from the cell extracts was neutralised by an antibody to bFGF, and immunoblotting revealed the presence of an 18 kDa immunoreactive polypeptide, consistent with the presence of bFGF in the cell extracts. Exogenously added bFGF caused the usually non-invasive HCT116A cells to invade collagen gels. The HCT116B and 20-10-1 cells that were naturally invasive in a collagen gel assay also showed increased levels of invasiveness in the presence of bFGF, but an antibody that neutralised the activity of bFGF reduced the constitutive invasiveness of these cells. Our results suggest a causal relationship between the endogenous production of bFGF and the invasive potential of human colon carcinoma cells.